CN204173582U - A kind of for High Temperature High Pressure powder granule cooling decompressing and continuous tapping equipment - Google Patents

Abstract

The utility model discloses a cooling and decompression continuous discharge device for high-temperature and high-pressure powder particles. The device includes a cooling material delivery chamber, a high-pressure storage tank (4), a variable-pressure storage tank (11) and a normal-pressure storage tank (24). , the inlet of the atmospheric pressure storage tank (24) is connected to the outlet of the variable pressure storage tank (11) feed pipe, and one side of the normal pressure storage tank (24) is connected to the outlet of the cyclone separator (19) feed pipe . The cooling delivery room includes a directional delivery room and a temperature reduction discharge room. The directional delivery room is equipped with a directional air cap to control the flow direction and flow rate of the powder particles. The temperature reduction discharge room is divided into a cooling room with a small volume. According to the powder The cooling chamber is selected for the discharge of solid particles; a cyclone separator is arranged on one side of the high-pressure storage tank to discharge the fluidization air; a pressure balance pipe is installed between the variable pressure storage tank and the high-pressure storage tank to make the powder particles drop by their own gravity. The utility model realizes the large-scale continuous control of the discharge of powder particles.

Description

A cooling and decompression continuous discharge device for high temperature and high pressure powder particles

technical field

The utility model relates to a device for cooling and decompressing continuous discharge of high-temperature and high-pressure powder particles, which is suitable for controlling large-scale continuous discharge of powder particles. the

Background technique

Coal, as the main primary energy source in my country, plays an important role in industrial production. With the needs of social development, the demand for coal is increasing, but the amount of high-quality coal is not enough to meet the needs of development. Therefore, increased Research on the application of inferior coal. According to the current research results, it is very important for technological development to deal with the environmental pollution and low efficiency caused by inferior coal. Environmental pollution is mainly gas emission pollution and slag discharge pollution. The use of fluidized bed technology can reduce the emission of harmful gases, and is also conducive to dealing with a series of problems such as the difficulty of slag discharge caused by high ash melting point coals in my country. The utility model has developed a device for cooling and depressurizing continuous discharge of high-temperature and high-pressure powder particles. Using this device, the high-temperature and high-pressure powder particles can be cooled and depressurized before being discharged, and the powder particles can also be controlled in a large range. continuous discharge. the

Contents of the invention

Technical problem: The purpose of this utility model is to cool down and relieve pressure on high-temperature and high-pressure powder particles, and provide a continuous discharge device for cooling and decompression of high-temperature and high-pressure powder particles. The utility model can realize the control of large-scale powder particles Internal continuous discharge, easy to operate. the

Summary of the invention: In view of the above technical problems, the technical solution of the utility model is:

A device for cooling and depressurizing continuous discharge of high-temperature and high-pressure powder particles, the device includes a cooling material delivery chamber, a high-pressure storage tank, a variable pressure storage tank and an atmospheric pressure storage tank;

The cooling material conveying chamber includes a directional conveying chamber and a temperature-reducing discharge chamber, wherein the inlet of the directional conveying chamber is connected with the outlet of the water-cooled ash conveying pipe, and the bottom end of the directional conveying chamber is provided with a directional wind cap, and the loosening wind flows in through the directional wind cap. Directional conveying room, the side connected with the directional conveying room is the cooling and discharging room; the bottom of the cooling and discharging room is equipped with an air distribution plate, and the fluidized wind is blown into the cooling and discharging room through the air distribution plate to reduce the temperature. Built-in water cooling coil in the discharge chamber;

The inlet of the high-pressure storage tank is connected with the outlet of the desuperheating discharge chamber, and the tapered part at the bottom of the high-pressure storage tank is connected with the feeding pipe, and the feeding pipe is controlled by the first material lock valve and the first air lock valve; the high-pressure storage tank A cyclone separator is arranged on one side of the cyclone separator, the exhaust pipe of the cyclone separator is controlled by the exhaust valve, and the feeding pipe of the cyclone separator is controlled by the second material lock valve and the second air lock valve;

The inlet of the variable pressure storage tank is connected to the outlet of the feeding pipe of the high pressure storage tank, and the variable pressure storage tank is provided with an inflation pipeline and a deflation pipeline, wherein the inflation pipeline is composed of an intake valve, a first balance valve and a second balance valve Control, the air release pipeline is controlled by the exhaust valve; the tapered part at the bottom of the pressure variable storage tank is connected with the feeding pipe, and the feeding pipe is controlled by the third material lock valve and the third air lock valve;

The inlet of the atmospheric pressure storage tank is connected to the outlet of the feed pipe of the variable pressure storage tank, and one side of the atmospheric pressure storage tank is connected to the outlet of the feed pipe of the cyclone separator;

The cooling and discharging chamber is divided into smaller discharge chambers. Within the total discharge volume range of the cooling and discharging chamber, it can be divided into two or more small discharging chambers according to the requirements. The air distribution plate under the small discharge chamber passes through the fluidized air, so that the powder particles are transported to the high-pressure tank after being reduced in temperature by the cooling coil, and a large-scale continuous control of the amount of discharged particles is realized;

In the directional conveying chamber, the airflow passing through the directional hood is used to control the flow direction and flow velocity of high-temperature and high-pressure powder particles;

Beneficial effects: Compared with the prior art, the technical solution of the utility model has the following advantages:

1. The utility model effectively cools down the temperature and pressure of the high-temperature and high-pressure powder particles, and uses the water-cooled coil to reduce the temperature of the high-temperature particles, and the fluidizing wind is also helpful for the heat dissipation of the particles; between the pressure tank and the transformer tank An inflation pipeline and a deflation pipeline are arranged between them, and the inflation pipeline is used to make the particles drop by their own gravity, making the falling more stable and reducing the impact on the pressure tank; the deflation pipeline completes the pressure relief of the high-pressure powder particles. the

2. The utility model divides the cooling and discharge chamber into several small spaces, and according to the requirements of the discharge volume, the fluidizing wind introduced into the corresponding space can complete the large-scale continuous control of the discharge volume, making the discharge process more continuous, Conducive to the monitoring of powder discharge. the

3. There is a directional air cap in the directional conveying chamber, which can effectively guide the high-temperature and high-pressure powder particles into the cooling and discharging chamber, avoiding the blockage of the device and ensuring the smoothness of the device. the

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is a schematic structural view of the directional conveying chamber and the temperature-reducing discharge chamber. the

Detailed ways

Below in conjunction with accompanying drawing and embodiment, the utility model patent is described in further detail:

The device and operation method of the present utility model will be described in more detail below in conjunction with the accompanying drawings and specific embodiments. the

As shown in Fig. 1 and Fig. 2, the utility model discloses a device for cooling and depressurizing continuous discharge of high-temperature and high-pressure powder particles. Tank 11 and atmospheric storage tank 24;

The cooling conveying chamber includes a directional conveying chamber 2 and a temperature-reducing discharge chamber 14, wherein the inlet of the directional conveying chamber 2 is connected to the outlet of the water-cooled ash conveying pipe 1, and the bottom end of the directional conveying chamber 2 is provided with a directional wind cap 3, The loose wind flows into the directional conveying chamber 2 through the directional air cap, and the side connected to the directional conveying chamber 2 is the temperature-reducing discharge chamber 14; The plate 12 is blown into the temperature reduction and discharge chamber 14, and the temperature reduction and discharge chamber 14 has a built-in water cooling coil 15;

The inlet of the high-pressure storage tank 4 is connected to the outlet of the temperature-reducing discharge chamber 14, and the tapered part at the bottom of the high-pressure storage tank 4 is connected to the feeding pipe, and the feeding pipe is connected by the first material lock valve 6 and the first air lock valve 7 Control; one side of the high-pressure storage tank 4 is arranged with a cyclone separator 19, the exhaust pipeline 17 of the cyclone separator 19 is controlled by the exhaust valve 18, and the feed pipe of the cyclone separator 19 is controlled by the second locking valve 20 and the second Two air lock valves 21 control;

The inlet of the variable pressure storage tank 11 is connected to the outlet of the high-pressure storage tank 4 feeding pipes, and the variable pressure storage tank 11 is provided with an inflation pipeline 8 and a deflation pipeline 22, wherein the inflation pipeline 8 is composed of an air intake valve 9, a second A balance valve 10 and a second balance valve 5 are controlled, and the air release pipeline is controlled by an exhaust valve 23; the tapered part at the bottom of the variable pressure storage tank 11 is connected with the feed pipe, and the feed pipe is connected by the third locking valve 12 and the third feed pipe. Air lock valve 13 control;

The inlet of the atmospheric storage tank 24 is connected to the outlet of the variable pressure storage tank 11 feed pipe, and one side of the atmospheric pressure storage tank 24 is connected to the outlet of the cyclone separator 19 feed pipe;

The temperature-reducing discharge chamber 14 is divided into discharge chambers with smaller volumes. Within the total discharge volume range of the temperature-reducing discharge chamber 14, it can be divided into two or more small discharge chambers according to the discharge volume requirements. , to pass the fluidized air to the air distribution plate 16 below the corresponding small discharge chamber, so that the powder particles can be input to the high-pressure tank 4 after being cooled by the cooling coil 15, and a large-scale continuous control of the amount of discharged particles is realized;

In the directional conveying chamber 2, the air flow passing through the directional air cap 3 is used to control the flow direction and flow velocity of the high-temperature and high-pressure powder particles;

Utilize described device to carry out the method for cooling and depressurizing continuous discharge of high temperature and high pressure powder particles, the steps are as follows:

Step 1: Put the high-temperature and high-pressure powder particles from the water-cooled ash conveying pipe 1 into the directional conveying chamber 2, use _N2 as the loosening air source, and pass it into the directional air cap 3, and blow the high-temperature and high-pressure powder particles into the cooling discharge Room 14, the cooling discharge chamber 14 is divided into discharge chambers with smaller volumes. According to the requirements of the discharge volume of powder particles, the air distribution plate 16 below the corresponding volume discharge chamber is fed with fluidized air to make the powder particles Flow into the high-pressure tank 4 after being cooled by the cooling coil 15, and the exhaust valve 18 is opened to discharge the fluidized air through the exhaust pipeline 17;

Step 2: close the exhaust valve 17, open the intake valve 9 and the first balance valve 10 of the charging pipeline 8, and fill _N into the pressure transformer 11, and wait for the pressure in the pressure transformer 11 to be the same as that in the high pressure tank 4 When the pressure is close, close the intake valve 9, open the second balance valve 5, make the pressure of the pressure transformer 11 and the high pressure tank 4 equal, open the first air lock valve 7 and the first material lock valve 6 in turn, and the powder The bulk particles fall into the pressure transformer tank 11 by their own gravity, and after the powder particles fall into the pressure transformer tank 11, the exhaust valve 23 of the gas release pipeline 22 is opened to complete the decompression operation;

Step 3: Open the third air lock valve 13 and the third material lock valve 12 in sequence, and the powder particles in the pressure transformer tank 11 fall into the atmospheric pressure tank 24 to be collected; open the second air lock valve 21 and the second lock valve in sequence The material valve 20 and the powder particles in the cyclone separator 19 fall into the atmospheric pressure tank 24 to be collected. the

The above is only a preferred embodiment of the utility model, it should be pointed out that for those of ordinary skill in the art, without departing from the principle of the utility model, some improvements and modifications can also be made. Retouching should also be regarded as the scope of protection of the present utility model. the

Claims (2)

1., for a High Temperature High Pressure powder granule cooling decompressing and continuous tapping equipment, it is characterized in that, this device comprises cooling conveying room, high pressure storage tank (4), transformation storage tank (11) and atmospheric storage tank (24);

Described cooling conveying room comprises directed conveying chamber (2) and desuperheat unloading house (14), wherein the import of directed conveying chamber (2) is connected with the outlet of water-cooled ash pipeline (1), the bottom of directed conveying chamber (2) is provided with wind cap (3), loosen wind and flow into directed conveying chamber (2) by wind cap, the side be connected with directed conveying chamber (2) is desuperheat unloading house (14); The bottom of desuperheat unloading house (14) is provided with air distribution plate (12), fluidized wind is blown into desuperheat unloading house (14), desuperheat unloading house (14) built-in water-cooling coil pipe (15) by air distribution plate (12);

Described high pressure storage tank (4) import exports with desuperheat unloading house (14) and is connected, the conical section of high pressure storage tank (4) bottom is connected with tremie pipe, and tremie pipe is controlled by the first lock material valve (6) and the first blocking valve (7); The side of high pressure storage tank (4) is furnished with cyclone (19), the air draft pipeline (17) of cyclone (19) is controlled by exhaust valve (18), and the conveying pipeline of cyclone (19) is controlled by the second lock material valve (20) and the second blocking valve (21);

Described transformation storage tank (11) import is connected with the outlet of high pressure storage tank (4) tremie pipe, transformation storage tank (11) is provided with loading line (8) and bleeder line (22), wherein loading line (8) is controlled by air inlet valve (9), the first balance cock (10) and the second balance cock (5), and bleeder line is controlled by blow off valve (23); The conical section of transformation storage tank (11) bottom is connected with conveying pipeline, and conveying pipeline is controlled by the 3rd lock material valve (12) and the 3rd blocking valve (13);

Described atmospheric storage tank (24) import is connected with the outlet of transformation storage tank (11) conveying pipeline, and the side of atmospheric storage tank (24) is connected with the outlet of cyclone (19) conveying pipeline.

2. according to claim 1 for High Temperature High Pressure powder granule cooling decompressing and continuous tapping equipment, it is characterized in that, the less unloading house of volume is separated in desuperheat unloading house (14), within the scope of the total withdrawal rate of desuperheat unloading house (14), be divided into two or more little unloading house, according to quantity discharged requirement, to air distribution plate (16) the through-flow wind transmission below corresponding little unloading house, make powder granule be input to bomb (4) after cooling coil (15) desuperheat, realize controlling the continuity on a large scale of pm emission amount.